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Query: UMLS:C0024523 (
malabsorption
)
7,319
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effect of two avian reovirus isolates (2408 and 1733) on digestion and nutrient metabolism in infected chickens was assessed by an in vitro absorption assay and clinical blood chemistry analysis. Birds of various ages were inoculated orally and intratracheally with reovirus and sampled periodically for the respective assays. Transitory
malabsorption
was observed in the duodenum of birds infected with reovirus 2408. Conversely, increased absorption was detected in the ileum of these same birds. Clinical blood chemistry analyses of birds infected with both isolates revealed that severely affected birds had abnormally elevated plasma total protein, plasma albumin, and calcium levels. Decreases were found in percent bone
ash
and, due to abnormally high globulin levels, in albumin:globulin (A:G) ratios. A significant (P less than 0.05) correlation between body weights and total protein, albumin, A:G ratio, and bone
ash
was found in infected birds. The most pronounced metabolic and physiologic changes occurred in the severely affected birds, and, in general, pathogenicity of the isolates was reflected by the degree of metabolic change.
...
PMID:In vitro and in vivo characterization of avian reoviruses. II. Clinical evaluation of chickens infected with two avian reovirus pathotypes. 254 42
The interaction between
malabsorption syndrome
(
MAS
) and dietary vitamins A and D was studied in broiler chicks reared in floor pens for 4 weeks. The chicks were naturally infected with
MAS
, whereas hatchmates fed the same diets but in a separate facility (battery brooder) did not exhibit signs of
MAS
and, therefore, were considered controls.
MAS
significantly reduced body weights, bone
ash
, serum calcium and phosphorus concentrations, and liver lipids and increased the incidence of skeletal abnormalities (tibial dyschondroplasia and rickets). Rather than ameliorating the effects of
MAS
, vitamin A caused a further reduction in body weight and bone
ash
. A possible nutrient interaction between vitamin A and vitamin D or vitamin E in birds with
MAS
may account for the exacerbative effect of vitamin A.
...
PMID:Exacerbative effect of vitamin A on malabsorption syndrome in chicks. 299 37
We have reported that X-linked hypophosphatemic (Hyp) and normal mice respond equally to the administration of 1,25-dihydroxyvitamin D3 [1,25(OH)2D3] with uptake of 45Ca from an oral test meal as judged by the isotope remaining in the fecal samples. To determine whether this was due to specific stimulation of calcium absorption, as opposed to changes in calcium secretion or transit time, 1,25(OH)2D3 was administered to 4-week-old (young) and 13-week-old (adult) normal and Hyp mice at a dose of 0.12 micrograms/kg per day by continual infusion from an Alzet minipump. After 3 days of infusion, absorption of 45Ca from the isolated duodenum was measured in situ.
Malabsorption
of calcium was shown in vehicle-treated 4-week-old Hyp mice by significantly more 45Ca remaining in the intestinal segment and by significantly reduced plasma levels and reduced skeletal levels of 45Ca. Treatment of the young mice, both normal and Hyp, with 1,25(OH)2D3 resulted in increased absorption of 45Ca, increased plasma 45Ca, and increased incorporation of 45Ca into the femur. The young Hyp mice treated with 1,25(OH)2D3 showed a significant increase in femoral
ash
weight. At 13 weeks of age both normal and Hyp vehicle-treated mice showed equivalent absorption of calcium, and both responded to 1,25(OH)2D3 administration with enhanced calcium absorption. At both ages plasma phosphate rose in only the Hyp mice treated with 1,25(OH)2D3, whereas plasma and urine calcium were increased in only the hormone-treated normal mice. In conclusion, 1,25(OH)2D3 stimulates the absorption of calcium in the isolated duodenum of the young Hyp mouse with equal potency to that of young normal mice.
...
PMID:Increased intestinal absorption of calcium in young and adult X-linked hypophosphatemic mice after the administration of 1,25-dihydroxyvitamin D3. 321 10
Low duodenal vitamin D-dependent calcium-binding protein has been reported in juvenile Hyp mice. Levels of this protein improved in adult Hyp mice. This led to the search for possible abnormal intestinal calcium absorption in juvenile Hyp mice and for evidence that calcium
malabsorption
, if present, would exacerbate the bone disease. A balance study was performed in 10 sets of normal and Hyp male mice at 5 and 12 weeks of age. Twelve-week-old Hyp mice had balances (24-h intake minus excretion) of Ca, P, Mg, Na, and K that were not significantly different from those of 12-week-old normal mice. However, 5-week-old Hyp mice had a significantly lower balance of Ca with higher fecal Ca and lower urinary Ca. No balance was also lower due to higher fecal Na. The balances of P, Mg, and K were not significantly affected in young Hyp mice. Growth and mineralization of the femur were compared in normal and heterozygous female Hyp mice from 3.5-46 weeks of age. The femora of Hyp mice gained
ash
weight at a rate comparable to that for normal mice, except for a lag between 3.5 and 7 weeks. There was life-long hypophosphatemia and elevated plasma alkaline phosphatase. It was concluded that the period of low levels of duodenal vitamin D-dependent calcium-binding protein was associated with low intestinal absorption and low skeletal mineralization. This dysfunction of the intestine in juvenile, rapidly growing Hyp mice may exacerbate the bone disease.
...
PMID:A role for the intestine in the bone disease of juvenile X-linked hypophosphatemic mice: malabsorption of calcium and reduced skeletal mineralization. 609 Jan 1
Morphometric and bone density studies were performed on bones from 10 healthy adult dogs and 9 dogs that had exhibited signs of
intestinal malabsorption
for variable periods of time. The dogs with
malabsorption syndrome
had a marked decrease in the amount of trabecular bone in lumbar vertebrae (P less than 0.001). Evaluation of undecalcified rib cross sections revealed these dogs had a decrease in trabecular thickness (P less than 0.01) and cortical area (P less than 0.01). There was a decrease in the proportion of the trabecular surface covered with osteoblasts (P less than 0.01) and an increase in resting resorption surface (P less than 0.01) and trabecular specific surface (P less than 0.01). Three of the dogs with
malabsorption syndrome
and all control dogs were labeled with oxytetracycline prior to sacrifice. The dogs with
malabsorption syndrome
had a decreased number or complete absence of labeled bone formation sites when compared to controls. No difference was found in bone mineral density in the
malabsorption
cases as a group, although 1 of the dogs that had an increase in percent osteoid volume and percent osteoid-covered surface had lower
ash
/ml in trabecular bone samples from lumbar vertebrae. Parathyroid gland weights were available for 6 of the 9 dogs, and these were not significantly different from controls. The findings indicate that decreased bone formation, probably due to the poor nutritional status associated with
malabsorption
, was an important factor in the development of osteopenia.
...
PMID:Osteopenia with decreased bone formation in beagles with malabsorption syndrome. 681 29
Total gastrectomy or resection of the acid-producing part of the stomach (fundectomy) in the rat induced a marked and rapid reduction in bone wet weight,
ash
weight, and density (expressed as
ash
weight in mg/mm3 bone). Bone volumes were also affected but not as much. The radius, sternum, tibia, and femur were studied. Three weeks after gastrectomy the bone
ash
weight was reduced by almost 30% and the density by more than 25%. Maximum bone loss (approximately 40%) occurred about 6 weeks after the operation. The bone loss after gastrectomy was somewhat greater than that after fundectomy, whereas antrectomy had a marginal effect only. The percentage trabecular bone volume, calculated from morphometric analysis of histologic sections of the tibia, was greatly reduced by gastrectomy (approximately 50%), somewhat less so by fundectomy, whereas antrectomy had little effect. We set out to study whether calcium
malabsorption
could explain the bone loss after gastrectomy. Gastric acid is thought to facilitate the intestinal absorption of ingested calcium by mobilizing calcium from insoluble complexes in the diet. The possibility that lack of acid might contribute to the bone loss after gastrectomy was examined in experiments in which the proton pump inhibitor omeprazole was given for 4-8 weeks at such a dose (400 mumol/kg/day) that acid secretion was blocked almost completely during the period of study. This treatment was without effect on bone. However, the possibility could not be excluded that gastrectomized rats develop calcium deficiency for some reason other than lack of acid.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Gastrectomy causes bone loss in the rat: is lack of gastric acid responsible? 848 63
In humans, gastric surgery results in in osteopenia via mechanisms that are insufficiently understood; surgery-induced changes in the hormonal axes involving the stomach, thyroid, and the parathyroids may play a role. To study this in more detail, we evaluated calcium (Ca), magnesium (Mg), and phosphorus (P) metabolism as well as physical, chemical, and histomorphometric bone parameters in rats rendered hypergastrinemic by fundectomy (FX). In independent experiments, the response to an oral Ca challenge was investigated in intact rats versus FX, and in thyroidectomized versus thyroid-intact FX rats. Sixteen weeks following FX, body weight was approximately 80% that of sham-operated controls. In urine, P excretion was elevated fivefold, the pH was significantly decreased, and cAMP excretion was elevated as compared with controls; serum parathyroid hormone (PTH), calcitonin, 25OHD, Ca, Mg, and P were normal; gastrin and 1,25(OH)2D were elevated. On the basis of bone
ash
mineral content, FX rats developed significant osteopenia, and histomorphometry indicated only slightly elevated bone turnover and mineralization. Following oral Ca, thyroid-intact FX rats developed hypercalcemia, serum gastrin decreased, and calcitonin increased significantly; in thyroidectomized FX rats, calcitonin remained at baseline levels although there was a similar degree of hypercalcemia; PTH decreased during the hypercalcemic period in both groups. Serum gastrin did not correlate with calcitonin or PTH, and in multivariate regression analysis the only predictor of serum 1, 25(OH)2D was urinary phosphorus. It was concluded that in the FX rat (1) osteopenia is not caused by intestinal Ca
malabsorption
, vitamin D, Ca deficiency, or secondary hyperparathyroidism; (2) osteopenia may be related to PTH-independent urinary hyperexcretion of P, followed by a rise of serum 1,25(OH)2D; (3) the existence of endocrine axes among gastrin, calcitonin, and PTH cannot be substantiated. FX osteopenia appears to be related to gastric acid abolition, and the reactive hypergastrinemia probably stabilizes the mass and turnover of bone.
...
PMID:Gastric fundectomy in the rat: effects on mineral and bone metabolism, with emphasis on the gastrin-calcitonin-parathyroid hormone-vitamin D axis. 979 30
